#!/bin/bash

set -e

usage() {
    echo "Usage: $0 [OPTIONS]"
    echo ""
    echo "Options"
    echo "  --help -h  : Display this message"
    echo "  -n <n>     : Number of harts"
    echo "  -b <elf>   : Binary to run in spike"
    echo "  -p <pc>    : PC to take checkpoint at [default 0x80000000]"
    echo "  -i <insns> : Instructions after PC to take checkpoint at [default 0]"
    echo "  -m <isa>   : ISA to pass to spike for checkpoint generation [default rv64gc]"
    echo "  -o <out>   : Output directory to store the checkpoint in. [default <elf>.<pc>.<insns>.loadarch]"
    exit "$1"
}

NHARTS=1
BINARY=""
PC="0x80000000"
INSNS=0
ISA="rv64gc"
OUTPATH=""
while [ "$1" != "" ];
do
    case $1 in
	-h | --help )
	    usage 3 ;;
	-n )
	    shift
	    NHARTS=$1 ;;
	-b )
	    shift
	    BINARY=$1 ;;
	-p )
	    shift
	    PC=$1 ;;
	-i )
	    shift
	    INSNS=$1 ;;
        -m )
            shift
            ISA=$1 ;;
        -o )
            shift
            OUTPATH=$1 ;;
	* )
	    error "Invalid option $1"
	    usage 1 ;;
    esac
    shift
done

BASEMEM="$((0x80000000)):$((0x10000000))"
SPIKEFLAGS="-p$NHARTS --pmpregions=0 --isa=$ISA -m$BASEMEM"
BASENAME=$(basename -- $BINARY)

if [ -z "$OUTPATH" ] ; then
    OUTPATH=$BASENAME.$PC.$INSNS.loadarch
fi

echo "Generating loadarch directory $OUTPATH"
rm -rf $OUTPATH
mkdir -p $OUTPATH

LOADARCH_FILE=$OUTPATH/loadarch
RAWMEM_ELF=$OUTPATH/raw.elf
LOADMEM_ELF=$OUTPATH/mem.elf
CMDS_FILE=$OUTPATH/cmds_tmp.txt
SPIKECMD_FILE=$OUTPATH/spikecmd.sh

echo "Generating state capture spike interactive commands in $CMDS_FILE"
echo "until pc 0 $PC" >> $CMDS_FILE
echo "rs $INSNS" >> $CMDS_FILE
echo "dump" >> $CMDS_FILE
for (( h=0; h<$NHARTS; h++ ))
do
    echo "pc $h" >> $CMDS_FILE
    echo "priv $h" >> $CMDS_FILE
    echo "reg $h fcsr" >> $CMDS_FILE

    echo "reg $h vstart" >> $CMDS_FILE
    echo "reg $h vxsat" >> $CMDS_FILE
    echo "reg $h vxrm" >> $CMDS_FILE
    echo "reg $h vcsr" >> $CMDS_FILE
    echo "reg $h vtype" >> $CMDS_FILE

    echo "reg $h stvec" >> $CMDS_FILE
    echo "reg $h sscratch" >> $CMDS_FILE
    echo "reg $h sepc" >> $CMDS_FILE
    echo "reg $h scause" >> $CMDS_FILE
    echo "reg $h stval" >> $CMDS_FILE
    echo "reg $h satp" >> $CMDS_FILE

    echo "reg $h mstatus" >> $CMDS_FILE
    echo "reg $h medeleg" >> $CMDS_FILE
    echo "reg $h mideleg" >> $CMDS_FILE
    echo "reg $h mie" >> $CMDS_FILE
    echo "reg $h mtvec" >> $CMDS_FILE
    echo "reg $h mscratch" >> $CMDS_FILE
    echo "reg $h mepc" >> $CMDS_FILE
    echo "reg $h mcause" >> $CMDS_FILE
    echo "reg $h mtval" >> $CMDS_FILE
    echo "reg $h mip" >> $CMDS_FILE

    echo "reg $h mcycle" >> $CMDS_FILE
    echo "reg $h minstret" >> $CMDS_FILE

    echo "mtime" >> $CMDS_FILE
    echo "mtimecmp $h" >> $CMDS_FILE

    for (( fr=0; fr<32; fr++ ))
    do
	echo "freg $h $fr" >> $CMDS_FILE
    done
    for (( xr=0; xr<32; xr++ ))
    do
	echo "reg $h $xr" >> $CMDS_FILE
    done
    echo "vreg $h" >> $CMDS_FILE
done
echo "quit" >> $CMDS_FILE

echo "spike -d --debug-cmd=$CMDS_FILE $SPIKEFLAGS $BINARY" > $SPIKECMD_FILE

echo "Capturing state at checkpoint to spikeout"
spike -d --debug-cmd=$CMDS_FILE $SPIKEFLAGS $BINARY 2> $LOADARCH_FILE


echo "Finding tohost/fromhost in elf file"
TOHOST=$(riscv64-unknown-elf-nm $BINARY | grep tohost | head -c 16)
FROMHOST=$(riscv64-unknown-elf-nm $BINARY | grep fromhost | head -c 16)

echo "Compiling memory to elf"
riscv64-unknown-elf-objcopy -I binary -O elf64-littleriscv mem.0x80000000.bin $RAWMEM_ELF
rm -rf mem.0x80000000.bin

riscv64-unknown-elf-ld -Tdata=0x80000000 -nmagic --defsym tohost=0x$TOHOST --defsym fromhost=0x$FROMHOST -o $LOADMEM_ELF $RAWMEM_ELF
rm -rf $RAWMEM_ELF

